Draw connections between your favorite MARVEL characters and the subjects of physics, chemistry, biology, and maths. You may choose to answer the question with reference to just one character or multiple, but make sure you answer in about 200-250 words. Put down your answers as comments by July 22, 2023, and REMEMBER- the best answer gets a shoutout on YouTube and a chance to feature on our blog. I will REVEAL MY ANSWER on Monday (July 24, 2023) along with the winner for this week, so STAY TUNED, and as always happy LEARNING!
The science behind MCU is not always fictional; most of it is related to real-life concepts. In this essay, I have described how scientifically amazing superheros are.
Biology:
Venom's signature phrase represents the dual identity of the alien symbiote and its host. Venom is an alien symbiote, a living organism from an extraterrestrial species known as the Klyntar. It has a unique ability to bond with and influence its hosts, creating a powerful and deadly partnership. When the Venom symbiote bonds with a host, it forms a symbiotic relationship where both the host and the symbiote benefit. The symbiote gains physical sustenance from the host while providing the host with enhanced abilities, such as superhuman strength, agility, and regenerative healing. The Venom symbiote has a dark and aggressive nature, and its influence can be overwhelming for some hosts. It feeds off emotions like anger, fear, and aggression, which can lead the host to act in more violent and ruthless ways.
Chemistry:
As his name suggests, Molecule Man has the power to control and manipulate molecules at a fundamental level. Molecule Man's powers allow him to alter the bonds between atoms and even create new chemical reactions. Molecule Man can change the state of matter, such as turning solids into liquids or gases and vice versa. Molecule Man's abilities enable him to create complex molecules by combining simpler ones or breaking down complex molecules into simpler components.Molecule Man's powers also involve the transformation of energy at a molecular level.
Physics:
Captain America's iconic shield is made of vibranium, a fictional material with unique properties. In the comics and movies, the shield is known for its durability and ability to absorb and reflect impacts, showcasing concepts of material strength, elasticity, and conservation of momentum. When Captain America throws his shield, it follows a curved trajectory known as projectile motion. This type of motion is determined by the initial velocity, launch angle, and the force of gravity acting on the shield. In his combat and shield-throwing techniques, Captain America demonstrates a keen understanding of friction, which helps him maintain grip and traction on different surfaces.
Maths:
Spider-Man's acrobatic manoeuvres, swinging between buildings, and precise web shots involve a keen understanding of geometry and trigonometry. The angles and trajectories he calculates when swinging on his webs can be related to trigonometric functions, and his jumps and flips can be analyzed using principles of geometry. Spider-Man's movements and interactions with objects obey the laws of kinematics and dynamics. Concepts like speed, velocity, acceleration, and momentum are relevant when analyzing his web-swinging or how he stops moving.